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UT CH 301 - Unit4Day5-LaBrake

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Unit4Day5 LaBrake Monday November 18 2013 3 25 PM Vanden Bout LaBrake Crawford CH301 The 2nd Law of Thermodynamics Entropy continued UNIT 4 Day 5 CH301 Vanden Bout LaBrake Fall 2013 Important Information LM33 Due Th November 29 th 9AM HW11 Due T DECEMBER 4 th 9AM End of semester attitude survey opens today End of semester Course Evaluations open 2 weeks CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 1 What are we going to learn today Second Third Law of Thermodynamics Quantify change in Entropy CH301 Vanden Bout LaBrake Fall 2013 QUIZ iClicker Question 1 Which of the following has the highest positional probability a 1 mole N2 gas at 1 atm b 1 mole N2 gas at 001 atm c No difference CH301 Vanden Bout LaBrake Fall 2013 QUIZ iClicker Question 2 Which of the following has the higher entropy a 1 mole N2 gas at 1 atm b 1 mole N2 gas at 001 atm c No difference CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 2 QUIZ iClicker Question 3 Predict sign for the for Ssys for sugar dissolving in water a b c No difference CH301 Vanden Bout LaBrake Fall 2013 QUIZ iClicker Question 4 Predict the sign for the for Ssys for iodine vapor condensing on a cold surface a b c No difference CH301 Vanden Bout LaBrake Fall 2013 Entropy What affects the entropy of the system Volume Change Mixing Phase Change Temperature Change Chemistry CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 3 Entropy of the Surroundings We typically define heat from the perspective of the system Therefore when we look at changes for the surroundings we see the relationship is Exothermic Ssurroundings 0 Endothermic Ssurroundings 0 CH301 Vanden Bout LaBrake Fall 2013 Entropy and Temperature CH301 Vanden Bout LaBrake Fall 2013 Entropy and Temperature CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 4 Entropy for a Phase Change During a phase change the heat is the reversible heat and the temperature is constant trans a phase transition i e vaporization melting CH301 Vanden Bout LaBrake Fall 2013 Entropy for a Chemical Change During a chemical change the heat is NOT the reversible heat and the temperature is constant Reactants Products We need to be able to find the entropy of a substance CH301 Vanden Bout LaBrake Fall 2013 The Third Law of Thermodynamics The entropies of all perfect crystals approach zero when the absolute temperature approaches zero We can then use entropy change from temperature change and phase change to find the entropy of any substance at any temperature CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 5 Absolute Entropies NOTE This is not the same as enthalpy of formation All elements in their standard states have values 2H2 g O2 g 2H2O l Entropy What affects the entropy of the system Volume Change only qualitative Mixing only qualitative Phase Change Temperature Change Chemistry CH301 Vanden Bout LaBrake Fall 2013 Activity Please open your course pack to page 109 Thermo Unit Entropy of Physical and Chemical Changes CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 6 QUIZ iClicker Question 5 Given that Hfus 6 02 kJ mol 1 and that the heat capacity for water is 4 184 J g 1 C 1 How much heat flows into the system for this process a b c d 12 kJ 16 kJ 3770 kJ 3790 kJ CH301 Vanden Bout LaBrake Fall 2013 QUIZ iClicker Question 6 Which is the larger entropy change a Smelting b Swarming c They are the same CH301 Vanden Bout LaBrake Fall 2013 QUIZ iClicker Question 7 Did heat flow into or out of the surroundings during this change a into b out c No heat flow CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 7 QUIZ iClicker Question 8 What is the entropy change for the surroundings a b c d 42 J K 42 J K 53 J K 53 J K CH301 Vanden Bout LaBrake Fall 2013 QUIZ iClicker Question 9 What is the total change in entropy per mole of solid ice that melts under these conditions a b c d e 55 J K mol 55 J K mol 2 1 J K mol 2 1 J K mol 0 J K mol CH301 Vanden Bout LaBrake Fall 2013 Learning Outcomes Calculate change in entropy of a system for physical change at constant temperature and with a change in temperature and for a chemical change using tabulated standard molar entropy data Calculate change in entropy for the surroundings for a physical change and a chemical change CH301 Vanden Bout LaBrake Fall 2013 Unit4Day5 LaBrake Page 8


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UT CH 301 - Unit4Day5-LaBrake

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